"""
=====================================================
Optimization and Root Finding (:mod:`scipy.optimize`)
=====================================================

.. currentmodule:: scipy.optimize

SciPy ``optimize`` provides functions for minimizing (or maximizing)
objective functions, possibly subject to constraints. It includes
solvers for nonlinear problems (with support for both local and global
optimization algorithms), linear programing,  constrained
and nonlinear least-squares, root finding and curve fitting.

Common functions and objects, shared across different solvers, are:

.. autosummary::
   :toctree: generated/

   show_options - Show specific options optimization solvers.
   OptimizeResult - The optimization result returned by some optimizers.
   OptimizeWarning - The optimization encountered problems.


Optimization
============

Scalar Functions Optimization
-----------------------------

.. autosummary::
   :toctree: generated/

   minimize_scalar - Interface for minimizers of univariate functions

The `minimize_scalar` function supports the following methods:

.. toctree::

   optimize.minimize_scalar-brent
   optimize.minimize_scalar-bounded
   optimize.minimize_scalar-golden

Local (Multivariate) Optimization
---------------------------------

.. autosummary::
   :toctree: generated/

   minimize - Interface for minimizers of multivariate functions.

The `minimize` function supports the following methods:

.. toctree::

   optimize.minimize-neldermead
   optimize.minimize-powell
   optimize.minimize-cg
   optimize.minimize-bfgs
   optimize.minimize-newtoncg
   optimize.minimize-lbfgsb
   optimize.minimize-tnc
   optimize.minimize-cobyla
   optimize.minimize-slsqp
   optimize.minimize-trustconstr
   optimize.minimize-dogleg
   optimize.minimize-trustncg
   optimize.minimize-trustkrylov
   optimize.minimize-trustexact

Constraints are passed to `minimize` function as a single object or
as a list of objects from the following classes:

.. autosummary::
   :toctree: generated/

   NonlinearConstraint - Class defining general nonlinear constraints.
   LinearConstraint - Class defining general linear constraints.

Simple bound constraints are handled separately and there is a special class
for them:

.. autosummary::
   :toctree: generated/

   Bounds - Bound constraints.

Quasi-Newton strategies implementing `HessianUpdateStrategy`
interface can be used to approximate the Hessian in `minimize`
function (available only for the 'trust-constr' method). Available
quasi-Newton methods implementing this interface are:

.. autosummary::
   :toctree: generated/

   BFGS - Broyden-Fletcher-Goldfarb-Shanno (BFGS) Hessian update strategy.
   SR1 - Symmetric-rank-1 Hessian update strategy.

Global Optimization
-------------------

.. autosummary::
   :toctree: generated/

   basinhopping - Basinhopping stochastic optimizer.
   brute - Brute force searching optimizer.
   differential_evolution - stochastic minimization using differential evolution.


Least-squares and Curve Fitting
===============================

Nonlinear Least-Squares
-----------------------

.. autosummary::
   :toctree: generated/

   least_squares - Solve a nonlinear least-squares problem with bounds on the variables.

Linear Least-Squares
--------------------

.. autosummary::
   :toctree: generated/

   nnls - Linear least-squares problem with non-negativity constraint.
   lsq_linear - Linear least-squares problem with bound constraints.

Curve Fitting
-------------

.. autosummary::
   :toctree: generated/

   curve_fit -- Fit curve to a set of points.

Root finding
============

Scalar functions
----------------
.. autosummary::
   :toctree: generated/

   brentq - quadratic interpolation Brent method.
   brenth - Brent method, modified by Harris with hyperbolic extrapolation.
   ridder - Ridder's method.
   bisect - Bisection method.
   newton - Secant method or Newton's method.
   RootResults - The root finding result returned by some root finders.


Fixed point finding:

.. autosummary::
   :toctree: generated/

   fixed_point - Single-variable fixed-point solver.

Multidimensional
----------------

.. autosummary::
   :toctree: generated/

   root - Unified interface for nonlinear solvers of multivariate functions.

The `root` function supports the following methods:

.. toctree::

   optimize.root-hybr
   optimize.root-lm
   optimize.root-broyden1
   optimize.root-broyden2
   optimize.root-anderson
   optimize.root-linearmixing
   optimize.root-diagbroyden
   optimize.root-excitingmixing
   optimize.root-krylov
   optimize.root-dfsane

Linear Programming
==================

.. autosummary::
   :toctree: generated/

   linprog -- Unified interface for minimizers of linear programming problems.

The `linprog` function supports the following methods:

.. toctree::

   optimize.linprog-simplex
   optimize.linprog-interior-point

The simplex method supports callback functions, such as:

.. autosummary::
   :toctree: generated/

   linprog_verbose_callback -- Sample callback function for linprog (simplex).

Assignment problems:

.. autosummary::
   :toctree: generated/

   linear_sum_assignment -- Solves the linear-sum assignment problem.

Utilities
=========

Finite-Difference Approximation
-------------------------------

.. autosummary::
   :toctree: generated/

   approx_fprime - Approximate the gradient of a scalar function.
   check_grad - Check the supplied derivative using finite differences.


Line Search
-----------

.. autosummary::
   :toctree: generated/

   bracket - Bracket a minimum, given two starting points.
   line_search - Return a step that satisfies the strong Wolfe conditions.

Hessian Approximation
---------------------

.. autosummary::
   :toctree: generated/

   LbfgsInvHessProduct - Linear operator for L-BFGS approximate inverse Hessian.
   HessianUpdateStrategy - Interface for implementing Hessian update strategies

Benchmark Problems
------------------

.. autosummary::
   :toctree: generated/

   rosen - The Rosenbrock function.
   rosen_der - The derivative of the Rosenbrock function.
   rosen_hess - The Hessian matrix of the Rosenbrock function.
   rosen_hess_prod - Product of the Rosenbrock Hessian with a vector.

Legacy Functions
================

The functions below are not recommended for use in new scripts;
all of these methods are accessible via a newer, more consistent
interfaces, provided by the interfaces above.

Optimization
------------

General-purpose multivariate methods:

.. autosummary::
   :toctree: generated/

   fmin - Nelder-Mead Simplex algorithm.
   fmin_powell - Powell's (modified) level set method.
   fmin_cg - Non-linear (Polak-Ribiere) conjugate gradient algorithm.
   fmin_bfgs - Quasi-Newton method (Broydon-Fletcher-Goldfarb-Shanno).
   fmin_ncg - Line-search Newton Conjugate Gradient.

Constrained multivariate methods:

.. autosummary::
   :toctree: generated/

   fmin_l_bfgs_b - Zhu, Byrd, and Nocedal's constrained optimizer.
   fmin_tnc - Truncated Newton code.
   fmin_cobyla - Constrained optimization by linear approximation.
   fmin_slsqp - Minimization using sequential least-squares programming.
   differential_evolution - stochastic minimization using differential evolution.

Univariate (scalar) minimization methods:

.. autosummary::
   :toctree: generated/

   fminbound - Bounded minimization of a scalar function.
   brent - 1-D function minimization using Brent method.
   golden - 1-D function minimization using Golden Section method.

Least-Squares
-------------

.. autosummary::
   :toctree: generated/

   leastsq - Minimize the sum of squares of M equations in N unknowns.

Root Finding
------------

General nonlinear solvers:

.. autosummary::
   :toctree: generated/

   fsolve - Non-linear multi-variable equation solver.
   broyden1 - Broyden's first method.
   broyden2 - Broyden's second method.

Large-scale nonlinear solvers:

.. autosummary::
   :toctree: generated/

   newton_krylov
   anderson

Simple iteration solvers:

.. autosummary::
   :toctree: generated/

   excitingmixing
   linearmixing
   diagbroyden

:mod:`Additional information on the nonlinear solvers <scipy.optimize.nonlin>`
"""

from __future__ import division, print_function, absolute_import

from .optimize import *
from ._minimize import *
from ._root import *
from .minpack import *
from .zeros import *
from .lbfgsb import fmin_l_bfgs_b, LbfgsInvHessProduct
from .tnc import fmin_tnc
from .cobyla import fmin_cobyla
from .nonlin import *
from .slsqp import fmin_slsqp
from .nnls import nnls
from ._basinhopping import basinhopping
from ._linprog import linprog, linprog_verbose_callback
from ._hungarian import linear_sum_assignment
from ._differentialevolution import differential_evolution
from ._lsq import least_squares, lsq_linear
from ._constraints import (NonlinearConstraint,
                           LinearConstraint,
                           Bounds)
from ._hessian_update_strategy import HessianUpdateStrategy, BFGS, SR1

__all__ = [s for s in dir() if not s.startswith('_')]

from scipy._lib._testutils import PytestTester
test = PytestTester(__name__)
del PytestTester
